Hashing, Salting, PBKDF[1-2]
I am storing passwords in my database using a scaled hashing/salting algorithm like PBKDF2. I thought 'Hey, if i hash my passwords 20000 times, that should be secure enough against brute force attacks right?' and its true. until next year when better computers come out.
Leaving aside the issue of encryption key length, and salt length (which can be incorporated into this solution as well) I thought, what if every N days, i re-hash all the passwords in the database. So they are hashed 20,000 times, then a week later, i hash them a further 500 times, making them a total of 20,500 times. Store the number of times it has been hashed in the database somewhere. The idea is to increase the hash count as technology progresses.
Existing similar implementations
BCrypt introduces a work factor to increase time taken to hash a password:
PBKDF2 uses a number of iterations to do the same thing. This is used by Mac OS-X, windows and linux for file level encryption. Wi-Fi networks also use implementations of it.
Can anyone see a problem with this? Has this already been tried? Is there an algorithm out there that accepts a pre-hashed password and re-hashes it 'N' times?
The question is not if multiple hashing is secure (this has been tried and tested). The question is around re-hashing to increase security without having to make the users re-set their passwords
Solution: courtesy of discussion with JVestry
So re-hashing all the passwords every 'N' days is a waste of time since the hacker can just crack it by using an old copy of the database. However, if you combine the concept of increasing the hash count over time to a password renewal policy, the concept is sound.
All passwords expire every 30 days. When they are renewed, their hash counter is increased. So a password reset yesterday will be harder to crack than one set 20 days ago. Hash counter can either be stored or derived from an algorithm using the last modified date.